Publications (10)9.41 Total impact

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Aim:To investigate the effects of puerarin (Pue), an isoflavone derived from Kudzu roots, on angiotensin II (Ang II)-induced hypertrophy of cardiomyocytes in vivo and in vitro.Methods:C57BL/6J mice were infused with Ang II and treated with Pue (100 mg·kg(-1)·d(-1), po) for 15 d. After the treatment, systolic blood pressure (SBP) and left ventricular wall thickness were assessed. The ratios of heart weight to body weight (HW/BW) and left ventricular weight to body weight (LVW/BW) were determined, and heart morphometry was assessed. Expression of fetal-type genes (ANP, BNP and β-MHC) in left ventricles was measured using semi-quantitative RT-PCR. Mouse primary cardiomyocytes were treated with Pue (50, 100, 200 μmol/L), then exposed to Ang II (1 μmol/L). ROS level was examined with flow cytometry, the binding activity of NF-κB was determined using EMSA. Western blot was used to measure the levels of ERK1/2, p38 and NF-κB pathway proteins. [(3)H]leucine incorporation was used to measure the rate of protein synthesis.Results:Oral administration of Pue significantly suppressed Ang II-induced increases in the myocyte surface area, HW/BW, LVW/BW, SBP and left ventricular wall thickness. Furthermore, Pue significantly suppressed Ang II-induced increases in ANP, BNP and β-MHC expression in the left ventricles in vivo. Treatment of cardiomyocytes with Pue (50-500 μmol/L) did not affect the viability of cardiomyocytes in vitro. Pretreatment of cardiomyocytes with Pue dose-dependently inhibited Ang II-induced increases in ROS production, NF-κB binding activity, protein synthesis and cell breadth. Furthermore, pretreatment with Pue significantly suppressed Ang II-induced activation of ERK1/2, p38 and the NF-κB pathway proteins and the expression of ANP and β-MHC in cardiomyocytes. The positive drug valsartan exerted similar effects on Ang II-induced cardiac hypertrophy in vivo and in vitro.Conclusion:Pue attenuates Ang II-induced cardiac hypertrophy by inhibiting activation of the redox-sensitive ERK1/2, p38 and the NF-κB pathways.

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To explore the mechanism of action of Zilongjin (ZLJ) in antagonizing multi-drug resistance (MDR) of tumor cells.
MDR tumor cells, including human breast cancer cell line MCF-7 and MCF-7/DOX, and human oral epithelial cancer cells KB and KBV200, were treated with ZLJ. The inhibition of ZLJ on cell proliferation was determined with MTT assay; cell cycle and fluorescence dye Rhodamine 123 intensity were detected by flow cytometry; and the expression of related proteins was examined by Western blot.
IC50 values in MDR cells after ZLJ treatment were similar to those in sensitive cells; MDR cells showed no cross resistance to ZLJ. Flow cytometric analysis showed that the cell cycles of either sensitive or MDR cells were arrested at S phase after exposure to ZLJ. Using ZLJ singly showed a weak inhibition on MDR of MCF-7/ DOX and KBV200 cells, but when used in combining with doxorubicin or vincistine, it evidently increased their cytotoxicity. Expression of P-glycoprotein in MCF-7/DOX cells decreased after ZLJ treatment in a time-dependent manner. Western blot showed that ZLJ could cause the apoptosis marker protein PARP cleavage to initiate the apoptotic pathway.
The proliferation of tumor cells with MDR could be inhibited by ZLJ and they show no cross resistance to ZLJ. The inhibitory effect is related to the activation of apoptotic pathway and the decrease of P-glycoprotein expression.

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Cellular senescence is one of the important steps against tumor. This study was to observe the characteristics of boningmycin induced senescence of human tumor cells. MIT method and clone formation assay were used to detect the growth-inhibitory effect. Cellular senescence was detected with senescence-associated beta-galactosidase staining. Cell cycle distribution and accumulation of intracellular reactive oxygen species (ROS) were analyzed with flow cytometry. Protein expression was detected by Western blotting. The results showed that the growth-inhibitory effect of boningmycin was obviously stronger on human oral epithelial carcinoma KB cells than that on non-small cell lung cancer A549 cells. Comparison to the similar action of doxorubicin, that boningmycin induced the features of cellular senescence in both cell lines, its due to the arrest at G2/M phase and an increase of ROS level. The molecular senescence marker P21 increased significantly after boningmycin treatment at a dosage of 0.1 micromol x L(-1), whereas a higher concentration of it induced apoptosis. The results indicated that cellular senescence induced by boningmycin was one of its mechanisms in tumor suppression.

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Lidamycin, an enediyne antibiotic, leads to apoptosis and mitotic cell death of human tumor cells at high and low concentrations. The reason why tumor cells have distinct responses to lidamycin remains elusive. This study was to elucidate if cellular prosurvival molecules are involved in these responses.
Cleavage of chromatin and DNA was observed by chromatin condensation and agarose gel electrophoresis. Accumulation of rhodamine 123 in lidamycin-treated cells was assayed by flow cytometry. Cell multinucleation was detected by staining with Hoechst 33342. Western blot and senescence-associated beta-galactosidase (SA-beta-gal) staining were used to analyze protein expression and senescence-like phenotype, respectively.
SIRT1 deacetylase remained unchanged in 0.5 nmol/L lidamycin whereas cleavage occurred when apoptosis was induced by lidamycin. Increased FOXO3a, SOD-1 and SOD-2 expression and transient phosphorylation of ERK were detected after exposure of human hepatoma BEL-7402 cells to 0.5 nmol/L lidamycin. High expressions of SIRT1 and Akt were found in colon carcinoma HCT116 p53 knock-out cells exposed to lidamycin. Degradation of PARP and p53 by lidamycin as a substitute for SIRT1 and Akt was confirmed with caspase inhibitor Q-VD-OPh and proteasome inhibitor MG132. Resistance to lidamycin-induced DNA cleavage was observed in breast cancer doxorubicin-resistant MCF-7 cells. This was not induced by P-glycoprotein as no accumulation of rhodamine 123 was detected in the resistant cells following exposure to lidamycin. In contrast to sensitive MCF-7 cells, a lower multinucleation rate for the resistant cells was measured following exposure to equal concentrations of lidamycin.
Cellular prosurvival molecules, such as SIRT1, Akt, SOD-1, SOD-2 and other unknown factors can influence the action of lidamycin on human tumor cells.

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The mechanism of apoptosis induced by SIRT1 deacetylase inhibitors in both human breast cancer MCF-7 and MCF-7 doxorubicin-resistant cells was studied. MTT assay was used to detect growth-inhibitory effect on the cells. Protein expression was detected by Western blotting. Chromatin condensation was detected by a fluorescent microscope after Hoechst 33342 staining. Cell cycle distribution was analyzed with flow cytometry. Apoptotic cells were detected with Annexin V staining. Nicotinamide (NAM) and Sirtinol, two SIRT1 deacetylase inhibitors, exhibited the similar growth-inhibitory effects on MCF-7/DOX cells and MCF-7 cells, but no potentiation of DOX activities. The arrest at G2/M phase was detected by flow cytometry in both MCF-7 and MCF-7/DOX cells after NAM treatment. Activation of caspase pathway in MCF-7 cells, such as the cleavages of PARP, caspase-6, -7, -9, were observed after exposure to NAM 50 mmol x L(-1), accompanied by the occurrence of chromatin condensation and Annexin V positive cells. However, the cleavages of PARP, caspase-6 and -7 in MCF-7/DOX cells delayed after exposure to NAM for 24 h and obviously increased at 48 h with appearance of chromatin condensation and Annexin V positive cells. SIRT1 deacetylase inhibitors show no cross resistance to MCF-7 drug-resistant cells, and the similar growth-inhibitory actions of them to MCF-7 sensitive and drug-resistant cells by which it is mediated by activation of apoptotic caspase pathway.

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To study whether Lycium barbarum glycopeptide 3 (LBGP3) affects T cell apoptosis in aged mice.
LBGP3 was purified with DEAE cellulose and Sephadex columns. Apoptotic "sub-G1 peak" was detected by flow cytometry and DNA ladder was resolved by agarose gel electrophoresis. Levels of IFN-gamma and IL-10 were measured with specific kits and mRNA expression was detected by RT-PCR. Apoptosis-related proteins of FLIP, FasL, and Bcl-2 were determined by Western blotting.
LBGP3 was purified from Fructus Lycii water extracts and identified as a 41 kD glycopeptide. Treatment with 200 microg/mL LBGP3 increased the apoptotic rate of T cells from aged mice and showed a similar DNA ladder pattern to that in young T cells. The reversal of apoptotic resistance was involved in down-regulating the expression of Bcl-2 and FLIP, and up-regulating the expression of FasL.
Lycium barbarum glycopeptide 3 reverses apoptotic resistance of aged T cells by modulating the expression of apoptosis-related molecules.

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Lidamycin, one of enediyne antitumor antibiotics, was isolated by our institute. It is the focus of intense due to its unique chemical structure and potent cytotoxicities to tumor cells in vivo and in vitro. In addition to cleavage of DNA, effect of lidamycin on apoptotic gene expressions and cytoskeleton may involve in its high activities. To further elucidate its mechanism, we have observed the effect of lidamycin on the above-mentioned factors in human hepatoma bel-7402 cells.
The gene expressions were determined by Northern blot and dot blotanalysis. The changes of microfilament and microtubule were detected by indirect immunofluorescent method and the apoptotic cells were detected with mitochondria-specific apoptotic dye Mitosensor.
The obvious increment of c-myc and c-fos gene expressions and the inhibition of N-ras gene expression in bel-7402 cells were observed following lidamycin treatment (0.1-10 nmol/L) for 8 h. The arrangement of microfilament in the cells became regular and was similar to nonmalignant normal cells, but there was no effect on microtubule when the bel-7402 cells were treated with lidamycin 10 nmol/L for 8 h. No apoptotic cells were detected with Mitosensor in the lidamycin-treated cells for 8 h.
Lidamycin at lower concentrations can markedly affect the expression of the apoptosis related genes and the distribution of the cytoskeleton in the hepatoma bel-7402 cells. The results are helpful to elucidate the molecular mechanism of potent cytotoxicities of lidamycin to tumor cells.

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To further study the effect of enediyne antibiotic lidamycin (C1027) on genomic DNA in human hepatoma BEL-7402 cells.
The DNA patterns were detected by agarose gel electrophoresis. The gene damage was revealed by Southern hybridization. The DNA repair was determined by neutral agarose gel electrophoresis. The lidamycin-cleaved sites were determined with superhelix GEM plasmid.
The DNA ladder patterns were observed after the BEL-7402 cells were treated with lidamycin 1 micromol/L for 15, 30, 60 min. The extrons and introns of active N-ras gene in the BEL-7402 cells were easily damaged by lidamycin at low concentrations, but no damage in the silent IL-2 gene was observed. It was difficult to repair DNA breaks after the BEL-7402 cells were treated with lidamycin. The cleaved sites of GEM plasmid treated with lidamycin were -OH HO-.
Lidamycin can significantly damage genomic DNA in the hepatoma BEL-7402 cells. The results make it helpful to elucidate the molecular mechanism of potent cytotoxicities of lidamycin to tumor cells.